Properties of mortar containing Phragmites Australis Ash

IF 2.6 Q1 ENGINEERING, MULTIDISCIPLINARY
J. Khatib, Lelian W. ElKhatib, J. Assaad, Adel El Kordi
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引用次数: 0

Abstract

Purpose The purpose of this paper is to examine the use of phragmites australis ash (PAA) in cementitious systems to achieve sustainable construction. Design/methodology/approach In this paper, the properties of mortar containing PAA as partial cement replacement are determined. The PAA is produced through slow burning in a closed system to minimize the CO2 emission. A total of four mortar mixes are prepared with PAA replacement levels ranging from 0% to 30% by weight. The water to binder and the proportions of binder to sand are 0.55 and 1:3 by weight, respectively. The properties tested are density, compressive strength, flexural strength, ultrasonic pulse velocity, water absorption by total immersion and capillary rise. Testing is conducted at 1, 7, 28 and 90 days. Findings While there is a decrease in strength as the amount of PAA increases, there is strong indication of pozzolanic reaction in the presence of PAA. This is in agreement with the results reported by Salvo et al. (2015), where they found noticeable pozzolanic activities in the presence of straw ash, which is rich in SiO2 and relatively high K2O content. At 90 days of curing, there is a decrease of 5% in compressive strength at 10% PAA replacement. However, at 20% and 30% replacement, the reduction in compressive strength is 23% and 32%, respectively. The trend in flexural strength and ultrasonic pulse velocity is similar to that in compressive strength. The water absorption by total immersion and capillary rise tends to increase with increasing amounts of PAA in the mix. There seems to be a linear relationship between water absorption and compressive strength at each curing age. Research limitations/implications The Phragmites australis plant used in this investigation is obtained from one location and this present a limitation as the type of soil may change the properties. Also one method of slow burning is used. Different burning methods may alter the composition of the PAA. Practical implications This outcome of this research will contribute towards sustainable development as it will make use of the waste generated, reduce the amount of energy-intensive cement used in construction and help generate local employment in the area where the Phragmites australis plant grows. Originality/value To the best knowledge of the authors, the ash from the Phragmites australis plant has not been used in cementitious system and this research can be considered original as it examines the properties of mortar containing PAA. Also, the process of burning in a closed system using this material.
芦苇灰砂浆的性能研究
目的研究芦苇灰分(PAA)在胶凝体系中的应用,以实现可持续建设。设计/方法/方法本文确定了含PAA砂浆作为部分水泥替代品的性能。PAA是通过在封闭系统中缓慢燃烧产生的,以尽量减少二氧化碳的排放。共制备了四种砂浆混合物,其PAA替代水平从0%到30%不等。水与粘结剂的重量比为0.55,粘结剂与砂的重量比为1:3。测试了密度、抗压强度、抗折强度、超声脉冲速度、全浸吸水率和毛细上升等性能。测试分别在第1、7、28和90天进行。虽然随着PAA含量的增加,强度会降低,但在PAA存在的情况下,有强烈的火山灰反应迹象。这与Salvo等人(2015)报告的结果一致,他们发现秸秆灰存在时明显的火山灰活动,秸秆灰含有丰富的SiO2和相对较高的K2O含量。在养护90天时,当PAA含量为10%时,抗压强度下降5%。然而,当替代量达到20%和30%时,抗压强度降低幅度分别为23%和32%。弯曲强度和超声脉冲速度的变化趋势与抗压强度的变化趋势相似。随着PAA掺入量的增加,总浸没吸水率和毛细上升吸水率呈增加趋势。在各个龄期,吸水率与抗压强度之间似乎存在线性关系。研究的局限性/意义本研究中使用的芦苇植物来自一个地点,这存在局限性,因为土壤类型可能会改变其性质。还有一种方法是慢烧。不同的燃烧方法可以改变PAA的组成。实际意义这项研究的结果将有助于可持续发展,因为它将利用产生的废物,减少建筑中使用的能源密集型水泥的数量,并有助于在芦苇植物生长的地区创造当地就业机会。原创性/价值据作者所知,芦苇植物的灰分尚未用于胶凝系统,本研究可以被认为是原创性的,因为它研究了含PAA的砂浆的性能。在封闭系统中使用这种材料的燃烧过程。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Journal of Engineering Design and Technology
Journal of Engineering Design and Technology ENGINEERING, MULTIDISCIPLINARY-
CiteScore
6.50
自引率
21.40%
发文量
67
期刊介绍: - Design strategies - Usability and adaptability - Material, component and systems performance - Process control - Alternative and new technologies - Organizational, management and research issues - Human factors - Environmental, quality and health and safety issues - Cost and life cycle issues - Sustainability criteria, indicators, measurement and practices - Risk management - Entrepreneurship Law, regulation and governance - Design, implementing, managing and practicing innovation - Visualization, simulation, information and communication technologies - Education practices, innovation, strategies and policy issues.
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